The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including extremely acidic (pH 0–1), viscous biofilms (snottites) hanging from the cave walls. We investigated the diversity and population structure of snottites from three locations in the cave system using full cycle rRNA methods and culturing. The snottites were composed primarily of bacteria related to Acidithiobacillus species. Other populations present in the snottites included Thermoplasmata group archaea, bacteria related to Sulfobacillus , Acidimicrobium , and the proposed bacterial lineage TM6, protists, and filamentous fungi. Based on fluorescence in situ hybridization population counts, Acidithiobacillus are key members of the snottite commun...
Acidic biofilms present on cave walls in the sulfidic region of the Frasassi Gorge, Italy, were inve...
<div><p>Snottites are extremely acidic (pH 0–2) biofilms that form on the walls and ceilings of hydr...
We performed a microbial community analysis of biofilms inhabiting thermal (35 to 50°C) waters more ...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide-rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Highly acidic (pH 0–1) biofilms, known as ‘snottites’, form on the walls and ceilings of hydrogen su...
Acidic biofilms present on cave walls in the sulfidic region of the Frasassi Gorge, Italy, were inve...
Acidic biofilms present on cave walls in the sulfidic region of the Frasassi Gorge, Italy, were inve...
<div><p>Snottites are extremely acidic (pH 0–2) biofilms that form on the walls and ceilings of hydr...
We performed a microbial community analysis of biofilms inhabiting thermal (35 to 50°C) waters more ...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide‐rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
The sulfide-rich Frasassi cave system hosts an aphotic, subsurface microbial ecosystem including ext...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Waters from an extensive sulfide-rich aquifer emerge in the Frasassi cave system, where they mix wit...
Highly acidic (pH 0–1) biofilms, known as ‘snottites’, form on the walls and ceilings of hydrogen su...
Acidic biofilms present on cave walls in the sulfidic region of the Frasassi Gorge, Italy, were inve...
Acidic biofilms present on cave walls in the sulfidic region of the Frasassi Gorge, Italy, were inve...
<div><p>Snottites are extremely acidic (pH 0–2) biofilms that form on the walls and ceilings of hydr...
We performed a microbial community analysis of biofilms inhabiting thermal (35 to 50°C) waters more ...